Fastening means



Jan. 2s, 1941. 3. A'. TMERMAN A 2,229,708

. FASTENING MEANS Original Filed Oct. 50, 1937 GEORGE A. TINNERMAN Patented Jan. 28, 1941 UNITED STATES PATENTOFFICE FASTENING MEANS George A. Tmnerman, Cleveland, Ohio, assignor, by mcsne assignments, to Tinnerman Products, Inc., Cleveland, Ohio, acorporation of Ohio Original application October 30, 1937, Serial No.

171,998. Divided and this 5, 1940, Serial N0. 359,960

14 Claims. This invention relates'to molding installations,

and the like, embodying means for attaching frames, refrigerator cabinets and many other assemblies comprising metal sheet material, fibre board, glass, vitreous coated sheets and surfaces formed of hardened plastic compositions.

The present application isla division of copending application Serial Number 171,998, led October 30, 193'? and since issued as Patent Number 2,225,394, December 17, 1940.

More particularly, theI present invention relates to improved means for the attachment of moldings and like objects to a supporting structure comprising connector or retainer devices eilecting an interlocking engagement between the molding or trim object and the supporting structure in combination with spring fastenings securing the retainer or connecting devices to thesupporting structure under continuous spring tension thereby providing an installation in which the molding or trim' object is iixed` andrigid in applied posi- .tion and not subject to loosening, displacement or possible removal incident to strain, vibration and jarring. enects.

Heretofore, metallic trim material has usually been attached to a supporting structure by means of wire or sheet metal clips having cooperative engagement with the molding or trim material and capable of being applied to' apertures in the supporting structure in the manner of a snap-- stud. However, it has been found that snap-stud clips of this character,'when employed in an installation subject to any material degree of strain and vibration as, for example, takes place in an automobile body. are ineicient and impractical in that they tend to work free from applied position to the extent that the trim material becomes loose and often completely removed resulting in- .an unsightly appearance and causing objectionable squeaks, rattles and other annoying sounds in the operation of the automobile.

Furthermore, in the application of relatively wide trim material such snap-'stud clips are not o practical in that they must necessarily be constructed of comparatively line wire or sheet metal strip material, and accordingly, no' adequate,

l positive. connection of the clips to the relatively wide trim material may be obtained; it has therefore been necessary to attach such relatively wide application October trim`material by means of bolts provided with with the use of lock washers, theinstallation becomes loose by reason of the ufact|that the en larged bolt lheads are not resilient and do not have a fixed, rigid engagement with the molding in their initial attachment and subsequently Work loose to cause objectionable 'squeaks and rattles.

It is therefore a primary object of this invention to provide anl arrangementfor attaching superposed parts and securing finishing objects such as moldings and vlike trim material to supporting structures without the use of threaded Afasteners of anykind croi snap-stud clips, and in such manner that the part or object secured is installed in a fixed, rigid mounting under spring tension and is not subject to loosening or displacement either-in the connection of th'e retaining means with the object or part supported,

or in the means for-securing the assembly to the supporting structure. y Y y Another lobject of the invention is to provide an installation comprising a hollow` molding and spring retainer devices to secure it in place on a support, which retainer devices are 4sprung into interlocking relation withthe molding and normally ymaintained in applied position along the length' thereof due to their inherent resiliency.

Still'another object of the invention it to'p'rovide in such an installationan arrangement by which the mounting of the molding on the sup-'- porting structure is under continuous spring tenvsion supplied by spring securing means cooperat..

draw the molding toward the supporting strucl ture in providing a xed, rigid, resilient mount- A" still further object contemplates the provision of an installation comprising a resilient retainer or connector means having alixed, rigid interlocking under spring tension with the member to be mounted, and in which the retainer is secured to the supporting structure by a locking plate also supplying spring tension, thereby providing a resilient installation in which the members are united in locked relation under spring tension throughout.

A further object comprehends in an installation embodying a resilient retainer and spring locking plate for mounting a member on a support, an arrangement providing a continuously eective spring holding action exerted axially of the retainer by the locking plate to draw the member to be mounted in close engagement with the support, and with theresilience ci the locking plate and the resilience of the retainer mutually contributing to the effectiveness or this spring holding action.

Another object of the invention is for the provision of an improved rastening'means comprising a retainer device having an enlarged Wire body adapted for resilient engagement under spring tension with the molding or other object, and which retainer is simple, inexpensive, and economically manufactured from a minimum of stock without loss or waste oi material.

A further object of the invention is to provide I such fastening means including a one-piece, resillent retainer for attaching an object to a supporting structure, comprising an enlarged loop body and a member dependent therefrom providing a shank adapted for locking engagement with a spring locking plate in applied position.

A still further, more'specic object islthe provision ci such a spring retainer constructed ci a single piece of wire and having an integral projecting portion providing a shank adapted for locking engagement with a spring locking plate.

Further objects and advantages and other new and useful features in the construction, arrangement and general combination of parts oi the invention will be apparent to those skilled 'ln the art as a description thereof proceeds with reference to the accompanying drawing, for purposes of illustration but not oi limitation, in which like reference characters designate like parts throughout the saine and-'in which:

Fig. l is a cross-sectional view oi an installation embodying the cooperating wire retainer and spring locking plate devices oi the invention;

Fig. 2 is a perspective oi the wire retainer per Se;

Fig. 3 is a perspective ci the retainer as assembled in interlocking relation in a molding preparatory to the `application thereof to a support to he secured by a spring locking plate;

Fig. 4 is a plan view of the completed molding installation represented in Fig. l; and,

Fig. 5 is a fragmentary plan view, similar to Fig. 4, showing the locking plate on an enlarged scale to illustrate the fastening action thereof.

Referring now, more particularly, to the drawing, Figs. 1, 8 and 4 show av molding installation embodying a preferred form of'wire retainer means assembled in the molding in interlocking engagement therewith and secured to a supporting structure of any suitable character by a spring locking plate. The letter vA designates generally a fragment of a channel-shaped rom of metallic molding comprising inturned base anges B, C, for example. The supporting structure is designated generally D, and inasmuch as the instant invention is intended mainly for use in the construction of metallic structures, such supporting structure usually consists of a metallic' panel or other plate-like element. as illustrated. In order that the molding, trim material or other object may be secured thereto, said supportin structure D is provided with peri'orations E, disposed at regular intervals and at suitably spaced points along which the trim material extends in mounted position. Such periorations may be either round or rectangular but preferably are round as shown in Fig. 3, to snugly receive the 'substantially round shank of the wire retainer in the most effective manner in a completed installe.- tion. The said perforations E may be provided in the member constituting the support as by punching prior-to the application of the molding thereto or the installation thereof as a part of a completed structure, and may also be formed in any other convenient manner as by tapping or drilling.

The molding which is to be mounted in accordance with the present invention is usually in the form of a channel-shaped strip although it is contemplated that the procedure of the instant invention be followed in securing moldings, trim strips and objects oi any other conguration or cross-section. As ,shown in Figs. i and 3. the sides of the molding or trim material are eachbent inwardly providing abutments or base flanges B, C, extending continuously along each side of the channel-shape and adapted for lnterlocking engagement with the retainer or connecting means on being mounted to the support, as hereinafter setforth. The body of the molding intermediate the base flanges or abutments may be of any desired conguration or design for ornamental and artistic purposes. However.' for the purposes of the present invention, it is only fifi necessary that the molding. trim strip, or other finishing object be provided with some form of abutment means, or the like, on the underface thereof adapted for cooperative engagement with a form of Wire retainer having a shank element which may be secured to -the supporting structure by'a spring locking plate, as presently to be described.

v As best seen in Fig. 2, a preferred'forin of retainer IB, is shown constructed of a single piece of heavy gauge wire, or the like, the midportion of which is bent in the form of a substantial loop I I providing an enlarged resilient body portion I2 which includes one end of the Wire. The opposite end of the Wire is bent out of the plane of the loop as at I3 to provide a head or trolley element IG for a purpose presently to be described. This end of the wire is further bent substantially at right angles to the plane defined by the resilient loop oi said body I2 to form the shank I5 of the retainer. Preferably, wire retainers of this form are bent prior to tempering, and after having been suitably bent are tempered to give the necessary stiffness and resilience. This resilience is inherent in the retainer throughout and accordingly permits the body portion I2 to bev sprung easily into interlocking relation with the flange edges B, C. of the molding A, Fig. 3, preparatory to the application of the assembly to the supporting member D with the projecting shank It thereof passing through the aperture E provided therein.

When the body portion I2 is sprung into interlocking relation with the base flanges of the molding, the head portion Il serves as a substantially trolley element. engaging the roof o! the 'molding to seat the retainer and rigidity the axial projecting relation of the shank IB thereof as shown in Fig. 1. Thus. the resilient loop permits the ready approximate location of a retainjecting substantially rigidly er along the length of the molding and in suitable spaced relation to the spacing of the apertures in the preperforated supporting structure, while the contacting .relation of the trolley element I 4, Fig. l, against the roof of the molding provides a ilrm, snug engagement of the retainer in applied position with the shank I5 thereof profrom the molding, thereby ensuring a tight, rigid installation under continuous spring tension when the spring locking plate is applied. Thus, due to their inherent resiliency and the said frictional engagement,the retainers are maintained in normal applied position along the length of the molding and in this relation serve to connect the molding to the supporting member under spring tension. In a still further relation, this resilient arrangement for applying the retainers in fixed relation in the molding is highly advantageous from the standpoint of economy and speed in assembling operations in mass production in that the retainers may be assembled in definite spaced relation in the moldings, and the assemblies stacked in numbers ready for use, whereupon an operator on an assembly line may quickly mount a molding without stopping to attach the retainers or to align the shanks thereof With'the apertures in the pre-' perforated supporting member.

The spring locking plates I, are provided from relatively thin sections of any suitable sheet metal such as cold rolled metal, spring steel, or the like, and may be round or of any suitable configuration, but quite obviously, are most economically constructed from generally rectangular sections obtained from strip stock without loss or waste of material. Such a section providinga locking plate is suitably slit and formed within its periphery to define a plurality of yieldable tongues 2, 3, or the like, projecting out of the plane thereof and adapted for frictional locking engagement with the shank of a retainer under spring tension. A preferred form of spring locking plate comprises opposed, yieldable tongues 2, 3, extending upwardly in substantial ogee formation intermediate bridge portions 4, 5, and end portions .5, 1, providing, what'mayy be termed, the

body of the locking plate which body is flexible and resilient and is so formed in the stamping operation as to havea pronounced, generally concave configuration in normal, untensioned relation. The extremities of the tongues 2, 3, arev- A notched as at-B, 9, Figs. 4 and 5, thereby providing opposed substantial jaws designed for especially effective biting engagement with the generally round shank of the wire retainer, as hereinafter more fully set forth. Since the` body of the locking plate is flexible, the tongue eiements 2, 3, are'necessarily relatively yieldable with respect to each other and readily adapted for sliding engagement. with the shank of a retainer in one direction and accordingly, may be. speedily applied to fastening position by a substantial axial thrust-like motion in a minimum of time and eifort and attened in such fastening position thereby ilxedly securing the assembled members of an installation under spring tension.

Y From theforegoing it may bi understood lthat a molding, trim strip or other finishing object may be secured to a supportingmember by means of the cooperating retainer and spring locking plate devices, just described, in substantially the following manner. The retainer I0, comprising flexible body I2 and integral shank I5 is disposed in interlocking relation with the molding A by springing the said nexible body I2 into abutting 1 ment with the adjacent ing relation of the shank I5 thereof with respect .to the molding. As many of such retainers as necessary are applied in this manner depending on the length ofthe molding and are so positioned therein that the shanks I5 thereof are disposed in such spaced relation as to correspond substantially with the spacing of the apertures vlil in the preperforated supporting structure D. The molding provided with the retainers assembled therein in such suitable spaced relation, is then brought to the preperforated supporting member and the shanks of the retainers fitted into the perforations and the molding pressed into snugengagesurface of the support with said shanks I5 projecting therethrough onto the reverse side. L

The spring locking plates i, are then applied to the projecting shanks I5 of the individual retainers and pressure exerted in a substantial axial, thrust-like movement in which the yieldable tongues 2, 3, of a retainer are caused to slide along the shank I5 to the point at which the end portions 6, "I, of the generally concave base, contact the adjacent surface of the supporting member D. At such point, upon continued pressure on the generally concave base of the locking plate, the end portions 6, 1 thereof are moved from their in the generally concave l base outwardly and upwardly in a substantial lifting force which is 'transmitted to the tongues to urge the 'notched j extremities vother to the extent that the said tongues -arey caused to dig into and become embedded in the 8, 9 thereof inwardly toward each draw the shank of the retainer axially thereby the assembled parts 50 Vnected part to the supporting structureunder taking up any clearance in i andrigidly securing vthe moldingor other concontinuous spring tension. In this way the locking plates exert a continuously effective spring holding action' axially of the shanks of the retainers, thereby drawingl the molding toward the supporting structure, with the resilience of the locking. plates and the resilience of the body portions I2 of the retainers mutually contributing to the effectiveness of this action.

'I'his most advantageous axial drawing action supplied by the spring' locking plates to provide a tight rigid installation, is effected by theI ten` 6, 'I and bridge portions 4, 5

sioned end portions l which are moved from their pronounced, concave configuration when normally untensioned as represented in Fig. 3 to assume the position of a vsubstantially thin, fiat section in applied position a's shown in4 Fig. 1. And accordingly, the said tensioned bridge and to assume theirintial; normally untensioned relation, produce 4a pronounced bending moment initial, normally untensioned position 3 i engagement with the base flanges B, C, of the molding; preferably, the retainer element Il la end portions in attempting whichV not only effects a locking of the tongues 2A, 3 by urging the notched extremities thereof into.

biting engagement with the shank 'I5 of the retainer, but also,

positively, draws the shank of' stallation is best obtained when the concave bases thereof are flattened without any substantial pressure being exerted ,on the tongue elements themselves inasmuch as any substantial pressure on the tongues prevents the same from having smooth sliding engagement with the shank of the retainer on being applied, and also deforms the same with respect to the generally concave base such that the extremities thereof are not in most effective contact with the cooperating shank, wherefore the tongues may slip and permit the locking plate to loosen from applied position. This application of the spring locking plates is preferably effected by the use of a special tool comprising spaced jaws which may be fitted to the bridge portions 4, t. of the locking plates without contacting the tongues elements 2, 3, Thus, by substantial axial thrust. pressure may be applied to the bridge portions to flatten and tension the same in the generally concave base of the locking plate without deforming the tongues; and accordingly, when the tool is withdrawn and the attendant pressure removed Ifrom the said flattened bridge portions, the tension s'tored therein causes the tongues to become embedded in the shank by substantial line contact and, at the same time, necessarily causes an axial drawing action on the shank of the retainer thereby providing a locked, tightened installation.

Referring to Figs. 4 'and 5, it will be understood that the cross-section of the shank i5 of the retainer is generally comparatively small compared to -the size of spring locking plate required to be employed therewith for the necessary strength and durability in an installation. In order to obtain the necessary locked fastening action of the tongues 2, 3, with such a shank of relatively small cross-section, and at the same time provide the required strength therein to reiiablysecure such an installation composed of comparatively heavy parts, for example, said tongues 2, 3 are provided from the body of 'the locking plate I. of relatively greater width than the diameter of the shank I5. The extremities of said tongues thus present relatively wide opposing straight edge surfaces which are provided with the V- shaped notches 8. 9, to define substantial jaws adapted for pronounced, positive biting engagement with the retainer shank i5.

By means of said V-shaped notches 8, 9, the ion'gue extremities are adapted to cut into the retainer shank at spaced points'on either side thereof with progressively increasing force until such tongue `extremities are definitely embedded in the retainer shank to a substantial degree in Ithe application of the fastening position, as aforesaid, and subtsantlally as represented by dotted lines in Fig. 5. In this relation, the intersecting straight edge and V- shaped portions ofthe tongue extremities define sharp points which are also embedded in the retainer shank to cooperate with the edges of the V-notched jaws in locking the tong'ues to the retainer shank in a manner to maintain the locking plate against relative rotative or other movement tending toward loosening or displacement thereof from its most enective applied fastening position.

modifications in the construction,

`scope of the invention.

have a tendency to.

" vided with locking plate to applied While the invention has been described in detail with a specific example, such example is intended as an illustration only, since it will be apparent to those sk llled in the art that other arrangement and general combination of parts thereof may be devised without departing from the spirit and The present embodiment is therefore to be considered in all respects as illustrative and not restrictive. the scope of the invention being indicated by the appended claims rather than by the foregoing description, with all changes'falling within the scope, meaning and range of equivalency of the claims intended to be embraced therein.

What isv claimed is:

l. Fastening means for Asecuring parts under continuous spring tension comprising cooperating retainer and spring locking plate devices, said retainer comprising a resilient, wire body for resiliently engaging one of said parts and proa shank for extending through an opening in a cooperating part, and said locking plate comprising a sheet metal base provided with a pair of cooperating shank engaging elements having their extremities spaced apart for receiving said shank and designed for locking biting engagement therewith under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face of said cooperating part, said resilient wire body of the retainer and said sheet metal looking plate cooperating to provide a connection which is resilient at either side of said secured parts.v

2. Fastening means 'for securing parts under continuous spring tension comprising cooperating retainer and spring locking plate devices, said retainer comprising a resilient. wire body for resiliently'engaging one of said parts and provided with a shank for extending through an opening in a cooperating part, and said locking plate comprising a sheet metal device provided with a generally concave base and a pair of cooperating shank engaging elements having their extremities spaced apart for receiving said shank and designed for locking biting engagement therewith under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face. of said cooperating part in applied fastening position, said generally concave base of the locking plate being adapted to exert an axial drawing action on the shank of the retainer in such applied fastening position, and said resilient wire body of the retainer and said sheet metal locking plate cooperating to provide a connection which is resilient at either side of said secured parts.

3. Fastening means for securing parts under continuous spring tension comprising cooperating retainer and spring locking plate devices. said retainer comprising a resilient, wire body for resiliently engaging one of said parts and provided with a shank for extending through an opening in a cooperating part, and said locking plate comprising a sheet metal base provided with a pair of cooperating shank engaging elements having their extremities spaced apart for receiving said shank of the retainer, at least one of said extremities being notched to provide a substantial :law designed for locking biting engagement with the retainer shank under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face of said cooperating part.

4. Fastening means for securing parts under prising a sheet metal device provided with a gen- *erally concave base and a pair of cooperating shank engaging elements having their extremities spaced apart for receiving said shank of the retainer, at least one of said extremities being notched to provide a substantial jaw designed for locking biting engagement with the retainer shank under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face of said cooperating part in applied fastening position, said generally concave base of the locking plate being adapted to exert an axial drawing action on the shank of the retainer in such applied fastening position. 1 i

5. Fastening means for securing parts under continuous spring tension comprising cooperating retainer and spring locking plate devices, said retainer comprising a resilient, wire body for resiliently engaging one of said parts and provided with a shank for extending through an opening in a cooperating part, and said locking plate comprising a sheet metal base provided with a pair of cooperating shank engaging elements having their extremities spaced apart for receiving said shank of the retainer, said extremities being notched to provide substantial jaws designed to cut into the retainer shank inlocking engagement therewith under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face of said vcooperating part.

shank engaging elements having their extremities spaced apart for receiving said shank of the retainer, said extremities being notched to provide opposing substantial jaws designed to cut into the retainer shank in locking engagement therewith under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face of said cooperating part in applied fastening position. ysaid'generally concave base of the locking plate being adapted to exert an axial drawing action on the shank of the re-l tainer in such applied fastening position.

7. Fastening means for securing parts under continuous "spring tension comprising cooperating retainer and spring locking plate devices, said Vretainer comprising a resilient, wire body for resiliently engaging one of said parts and provided with a shank for extending through an opening in a cooperating part, and said locking plate comprising a sheet metal base provided with a substantial tongue struck and formed therefrom and dening an opening for receiving said shank of the retainer, the extremity oi said' tongue being designed for locking biting engagement with the retainer shank under spring tension in cooperation with the base of said lockingy plate in resilient engagement with the adjacent face of said cooperating part,

8. Fastening means for securing parts under continuous spring tension comprising cooperat-v ing retainer and spring locking plate devices, said retainer comprising a resilient, wire body for resiliently engaging one of said parts and provided with a shank for extending through an opening.-

in a cooperating part, and Vsaid locking plate comprising a sheet metal device provided with a gen'- erally concave base and a substantial tonguev .struck and formed therefrom and defining an opening for receiving said shank of the retainer, the extremity of said tongue being designed for locking biting engagement with the retainer shank under spring tension in cooperation with the base of said locking plate in resilient engage- .ment with the adjacent face of said cooperating having spacedA extremities defining an opening for 50 receiving said shank of the retainer, said extremities of the tongues being notched to provide substantial jaws adapted to cut into the retainer shank in locking engagement therewith under spring tension in cooperation Withthe base of said locking plate in resilient engagementwith the adjacent face of said cooperating part. said resilient wire body of the retainer and said sheet metal locking plate cooperating to provide a connection which is resilient at either side of said secured parts.

10. Fastening means for securing parts under continuous spring tension comprising cooperating retainer and spring locking plate devices, said retainer comprising a. resilient, wire body for resiliently engaging one of said parts and provided with a shank for extending through an opening in a cooperating part, and said locking plate comprising a sheet metal device provided with af generally conc'ave'base and cooperating tongues struck and formedthereirom and having spaced extremities defining an opening for receiving said shank of the retainer, said extremities oi' the tongues being notched to provide substantialv Jaws adapted to cut into the retainer shank in locking engagement therewith under spring tension in cooperation with the base of said locking platev in resilient engagement with the adjacent face of said cooperating part in applied fastening position, said generally concave base of the locking plate being adapted to exert an axial drawing action on the retainer shank in such applied Vfastening position, and said ,resilient wire body ofthe retainer and said sheet metal locking plate cooperating toprovide a connection which is resilient at either side of said secured parts.

11. Fastening means for securing a molding or the like to a supporting part under continuous spring tension, said fastening means comprising cooperating retainer and spring locking plate devices, said retainer comprising a resilient wire body adapted for resilient interlocking engagement with said molding and provided with a shank for extending through an opening in said supporting part, and said locldng plate comprising a sheet metal base provided with a pair of cooperating shank engaging elements having their extremities spaced apart for receiving said shank of the retainer and designed for locking biting engagement therewith under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face of said supporting part.

12. Fastening means for securing al molding or the like to a supporting part under continuous spring tension, said fastening'means comprising cooperating retainer and spring locking plate devices, said retainer comprising aV resilient, wire bodyadapted for resilient interlocking engagement with said molding and provided with a shank for extending through an opening in said supporting part, and said locking plate comprising a sheet metal device provided with a generally concave base and a pair of cooperating shank engaging elements having their extremities spaced apart for receiving said shank of the retainer and designed for locking biting engagement therewith under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face of said supporting part in applied fastening position, said generally concave base ofthe locking plate being adapted to exert an axial drawingaction on the shank of the retainer in such applied fastening position to draw the molding into tight engagement with said supporting part.

13. Fastening means for securing a molding or the like to a supporting part under continuous spring tension, said fastening means comprising cooperating retainer and spring locking plate devices, said retainer comprising .a resilient, wire body adapted for resilient interlocking engagement with said molding and provided with a shank for extending through an opening in said supporting part, and said locking plate comprising a sheet metal base provided with cooperating tongues struck and formed therefrom and defining an opening for receiving said shank of the retainer, the extremities of said tongues being notched to provide substantial jaws adapted to cut into the retainer shankin locking engagement therewith under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face Vof said supporting part.

14. Fastening means for securing a molding or the like to a supporting part under continuous spring tension, said fastening means comprising cooperating retainer and spring locking plate devices, said retainer comprising a resilient, wire body adapted for resilient interlocking engagement with said molding and provided with a shank for extending through an opening in said supporting part, and said locking plate comprising a sheet metal device provided with a generally concave base and cooperating tongues struck and formed therefrom and deiiningv an opening for receiving said shank of the retainer, the extremities of said tongues being notched to provide substantial jaws'adapted to cut into the retainer shank in locking engagement therewith under spring tension in cooperation with the base of said locking plate in resilient engagement with the adjacent face of said supporting part in applied fastening position, said generally concave base of the locking plate being adapted to exert an axial drawing action on the retainer shank in such applied fastening position to draw the molding into tight engagement with said supporting part.

GEORGE A. 'IINNERMAN` 

